6

I have a DataFrame with two columns and a little over one-hundred thousand elements.

In [43]: df.head(10)
Out[43]:
                    localtime                 ref
4  2014-04-02 12:00:00.273537  139058754703810577
5  2014-04-02 12:00:02.223501  139058754703810576
6  2014-04-02 12:00:03.518817  139058754703810576
7  2014-04-02 12:00:03.572082  139058754703810576
8  2014-04-02 12:00:03.572444  139058754703810576
9  2014-04-02 12:00:03.572571  139058754703810576
10 2014-04-02 12:00:03.573320  139058754703810576
11 2014-04-02 12:00:09.278517  139058754703810576
14 2014-04-02 12:00:20.942802  139058754703810577
15 2014-04-02 12:01:13.410607  139058754703810576

[10 rows x 2 columns]

In [44]: df.dtypes
Out[44]:
localtime    datetime64[ns]
ref                   int64
dtype: object

In [45]: len(df)
Out[45]: 111743

In [46]: g = df.groupby('ref')

If I request the last element from my group, the function just hangs!

In [47]: %timeit g.last()

I killed it after 6 minutes; top shows the CPU at 100% the entire time.

If I request the localtime column explicitly, this will at least return, though it still seems absurdly slow for how few elements there are.

In [48]: %timeit g['localtime'].last()
1 loops, best of 3: 4.6 s per loop

Is there something I'm missing? This is pandas 0.13.1.


This issue appears with the datetime64 type. Suppose I read directly from a file:

In [1]: import pandas as pd

In [2]: df = pd.read_csv('so.csv')

In [3]: df.dtypes
Out[3]:
localtime    object
ref           int64
dtype: object

In [4]: %timeit df.groupby('ref').last()
10 loops, best of 3: 28.1 ms per loop

The object type works just fine. However, all hell breaks loose if I cast my timestamp:

In [5]: df.localtime = pd.to_datetime(df.localtime)

In [6]: df.dtypes
Out[6]:
localtime    datetime64[ns]
ref                   int64
dtype: object

In [7]: %timeit df.groupby('ref').last()

The plot thickens.


Reproducing without a data file, using Jeff's suggestion:

In [70]: rng = pd.date_range('20130101',periods=20,freq='s')

In [71]: df = pd.DataFrame(dict(timestamp = rng.take(np.random.randint(0,20,size=100000)), value = np.random.randint(0,100,size=100000)*1000000))

In [72]: %timeit df.groupby('value').last()
1 loops, best of 3: 332 ms per loop

However, if I change the range of random integers, then the problem occurs again!

In [73]: df = pd.DataFrame(dict(timestamp = rng.take(np.random.randint(0,20,size=100000)), value = np.random.randint(0,100000,size=100000)*1000))

In [74]: %timeit df.groupby('value').last()                                                           

I simply increased the high parameter of the second randint(), which means that the groupby() will have a greater length. This reproduces my error without a data file.

Note that if I forgo datetime64 types, then there is no problem:

In [12]: df = pd.DataFrame(dict(timestamp = np.random.randint(0,20,size=100000), value = np.random.randint(0,100000,size=100000)*1000))

In [13]: %timeit df.groupby('value').last()
100 loops, best of 3: 14.4 ms per loop

So the culprit is in scaling last() on datetime64.

1
  • try g.tail(1); can you post your file? (and the read_csv you are using to read it in ) (or if in other format ok, just post code).
    – Jeff
    Apr 3, 2014 at 18:33

1 Answer 1

4

Must be something odd going on....looks ok in 0.13.1 (and master). Post a link to your file and i'll take a look.

In [3]: rng = date_range('20130101',periods=20,freq='s')

In [4]: df = DataFrame(dict(timestamp = rng.take(np.random.randint(0,20,size=100000)), value = np.random.randint(0,100,size=100000)*1000000))

In [5]: df.info()
<class 'pandas.core.frame.DataFrame'>
Int64Index: 100000 entries, 0 to 99999
Data columns (total 2 columns):
timestamp    100000 non-null datetime64[ns]
value        100000 non-null int64
dtypes: datetime64[ns](1), int64(1)
In [6]: %timeit df.groupby('value')['timestamp'].last()
100 loops, best of 3: 9.07 ms per loop

In [7]: %timeit df.groupby('value')['timestamp'].tail(1)
100 loops, best of 3: 16.3 ms per loop

Ok here's the explanation:

Using np.random.randint(0,100,size=100000) for value, creates 100 groups, while np.random.randint(0,100000,size=100000) creates a lot more (in my example 63000) or so.

.last (in < 0.14) implicity does the last of the non-nan values. This na testing is not that cheap, so this has poor scaling performance (and is done in python space for each group).

tail(1) on the other hand (in < 0.14) does NOT check for this so perf is much better (and uses a cython routing to get the results).

In 0.14 these will be the same (and even if you do it like this: nth(-1,dropna='any') which will replicate what last is doing here, this is done in a way to have much better perf. (thanks @Andy Hayden).

Bottom line is to use tail(1) in < 0.14.

11
  • Hmm, I can get your results. And oddly, if I save my DataFrame to a file and read it back, then the performance is great. Unfortunately I can't post my raw data because it is proprietary market data. I'll investigate some more and post an update when I find something. Oh, and tail(1) returns just fine; it's just last() that has trouble. Apr 3, 2014 at 19:25
  • New info: If I save my DF and read it back, the localtime column becomes an object type. Getting the last() is very fast. However, if I convert the localtime back to a datetime64[ns] (via pd.to_datetime), then last() becomes slow! Apr 3, 2014 at 19:33
  • are you parse_dates=True on the read in? but then pd.to_datetime reads it ok? (are their NaT generated in the field? (e.g. unparseable entries)
    – Jeff
    Apr 3, 2014 at 19:40
  • I've updated my question with a few more steps to repeat the problem. The trouble also occurs if I pass parse_dates=['localtime']. There are no null datetimes. Apr 3, 2014 at 19:54
  • I cannot replicate this (on master or 0.13.1)
    – Jeff
    Apr 3, 2014 at 20:06

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